1. Mark S. Greeley 1, S. Marshall Adams 1, Tyler F. Baker 2, Logan R. Elmore 1, Mary K. McCracken 1, and Rick M. Sherrard 2 1 Oak Ridge National Laboratory and 2 Tennessee Valley Authority Assessing the Risks to Fish Reproduction from the TVA- Kingston Fossil Plant Fly Ash Release TVA-Kingston Fly Ash Release Environmental Research Symposium August, 2011

2. 2Managed by UT-Battelle for the U.S. Department of Energy Why the Concern for Fish Reproduction? Reproduction is a key link between the potential effects of fly ash on individual fish and on populations Metals that are enriched in fly ash (for example Se, Hg, As) can have adverse effects on fish reproduction Selenium in particular has been shown to be capable of causing reproductive failure of fish populations, primarily through effects on fish early life stages Note: Figure adapted from Adams et al. this session; results from 2010 breeding season

3. 3Managed by UT-Battelle for the U.S. Department of Energy Fish Reproduction Studies Associated with the Kingston Fly Ash Release Field studies (spring 2009 - 2011) of fish reproductive condition in the Emory and Clinch Rivers Short-term laboratory tests involving direct exposure of fish embryos to fly ash Longer-term laboratory studies involving direct exposure of reproducing fish to fly ash Field evaluation of fish larval development in the Emory and Clinch Rivers [TVA] In vitro spawning trials with fish collected from the Emory and Clinch Rivers

4. 4Managed by UT-Battelle for the U.S. Department of Energy Conducted with spring monitoring of fish health and bioaccumulation 2009- 2011 at five primary study sites (see following slide for locations) Female fish sampled at the beginning of their respective breeding seasons Metal bioaccumulation analyzed in ovaries and other tissues Objective: assess fish fecundity and the quality of the immature eggs at sites affected by the fly ash spill in comparison with upstream reference sites Target sample sizes were 8 or more females of 3-4 fish species (variously bluegill sunfish, largemouth bass, redear sunfish, and/or white crappie) Field Studies of Fish Reproductive Condition: Objectives and Study Design

5. 5Managed by UT-Battelle for the U.S. Department of Energy Study Sites for Field Studies of Fish Reproductive Condition

6. 6Managed by UT-Battelle for the U.S. Department of Energy Bluegill Sunfish Reproductive Condition Spring 2009: Ovary Size Bluegill Sunfish Photo by Richard T. Bryant Note: Letters above bars indicate statistical differences in site responses (for example, “a” is statistically different from “b”); GSI = (ovary wt/ body weight) x 100; ERM = Emory River Mile, CRM = Clinch River Mile. High GSI = large ovary Low GSI = small ovary Examples above of sunfish with a high GSI (prespawning ovary) or a low GSI (immature ovary) are of redear sunfish, but bluegill sunfish ovaries are similar

7. 7Managed by UT-Battelle for the U.S. Department of Energy Bluegill Sunfish Reproductive Condition Spring 2009: Fecundity Note: Letters above bars indicate statistical differences in site responses (for example, “a” is statistically different from “b”); vitellogenic oocytes = larger immature eggs in the process of accumulating yolk; batch fecundity = number of vitellogenic oocytes in a leading clutch of developing oocytes destined to be spawned, or released from the ovary, at the same time, or alternatively the number of post-ovulatory follicles (the tissue layers wrapping the immature oocytes) left behind in a post-spawn ovary; ERM = Emory River Mile, CRM = Clinch River Mile

8. 8Managed by UT-Battelle for the U.S. Department of Energy Bluegill Sunfish Reproductive Condition - Spring 2009: Oocyte Viability Note: Letters above bars indicate statistical differences in site responses (for example, “a” is statistically different from “b”); atretic oocytes are dead or dying immature eggs (oocytes); ERM = Emory River Mile, CRM = Clinch River Mile. Picture of oocytes from a sunfish ovary illustrating the appearance of normal vitellogenic oocytes, an atretic oocyte, and a parasitic cyst present along with the oocytes within the ovarian tissue

9. 9Managed by UT-Battelle for the U.S. Department of Energy Field Studies of Fish Reproductive Condition: Status Ovary samples collected through 2011 Ovary samples through 2010 analyzed Data for 2009-2010 being compiled and statistically analyzed for September 2011 reporting

10. 10Managed by UT-Battelle for the U.S. Department of Energy Short-term Laboratory Tests of the Effects of Fly Ash on Fish Early Development Tested effects of direct contact exposure to fly ash on fish early development in experimental exposures Tests were modified fathead minnow 7-day embryo-larval toxicity tests conducted for 7-days through yolk-sac absorption Samples included 4 sediment samples dredged from the Emory River consisting of various percentages of pure ash Control treatment consisted of filtered Emory River water collected from ERM 8.0 Endpoints = % survival, % terrata, % hatching success

11. 11Managed by UT-Battelle for the U.S. Department of Energy Collection Sites for Sediment Tested by Fathead Minnow Embryo-Larval Bioassays Sample A = 67% ash Sample B = 75% ash Sample C = 78% ash Sample D = 46% ash

12. 12Managed by UT-Battelle for the U.S. Department of Energy Results of Fathead Minnow Embryo-Larval Tests No significant differences between controls and fly ash-exposed embryos A B C D Note: Test based on EPA method 1001.0, modified for fly ash testing; terrata = embryos/larvae with obvious developmental abnormalities; in test, developmental abnormalities are assumed to eventually lead to death. Embryos on ash

13. 13Managed by UT-Battelle for the U.S. Department of Energy Short-term Laboratory Tests of the Effects of Fly Ash on Fish Early Development: Status Bioassays completed summer 2010 Draft report June 2011 Finalized report expected August 2011

14. 14Managed by UT-Battelle for the U.S. Department of Energy Long-term Experimental Exposures of Fish to Fly Ash in the Laboratory Can fish survive and reproduce on fly ash? Evaluate the chronic toxicity to adult fish and their young from direct exposures to fly ash Bluegill sunfish was original target species, but male fish in particular kept ash unacceptably suspended in the water column As an alternative, direct exposures of fathead minnows to fly ash (5 tanks each of controls, reference sediment and fly ash) were conducted for over 120 d Endpoints = adult survival; instantaneous egg production and egg viability at 2-3 d intervals, and cumulative egg production; embryo-larval survival, hatching success, and frequency of terrata in tests conducted after the >120 d exposures Fathead minnow exposures

15. 15Managed by UT-Battelle for the U.S. Department of Energy Egg Production per Aquaria per 2 to 3-Day Collection Period (Preliminary Results of Ongoing Study) 2-mo exposures

16. 16Managed by UT-Battelle for the U.S. Department of Energy Percent Non-Viable Eggs Interval from 1 mo - 2 mo

17. 17Managed by UT-Battelle for the U.S. Department of Energy Long-term Experimental Exposures of Fish to Fly Ash in the Laboratory: Status Adult exposures and reproduction monitoring completed January 2011 Embryo-larval testing completed February 2011 Reproduction/developmental data still being compiled and statistically analyzed Metals currently being analyzed in carcasses, ovaries/eggs, and tank water

18. 18Managed by UT-Battelle for the U.S. Department of Energy Field Evaluation of Incidences of Developmental Abnormalities in Larval Fish TVA project (see Tyler Baker for details) Incidences of developmental abnormalities are being assessed in larval fish sampled from the Emory and Clinch Rivers Focus is on the detection of non-lethal developmental abnormalities in fish larvae that are able to survive until sampling Target fish species are the same as in fish health and reproductive condition studies Picture by Richard T. Bryant

19. 19Managed by UT-Battelle for the U.S. Department of Energy In vitro Spawning Trials Objectives: evaluate potential food chain effects and/or maternally-transferred developmental toxicity in fish exposed to fly ash in the Emory and Clinch Rivers Fish collected from field sites were spawned in vitro during the spring 2011 breeding season (preliminary studies conducted in spring 2010) Redear sunfish was primary study species with bluegill sunfish as a secondary study species Target sample sizes were at least 4 clutches of eggs per site (from standard methods for examining the effects of selenium on fish early development) Endpoints included embryo/larva survival, hatching success, and incidences of developmental abnormalities Redear sunfish

20. 20Managed by UT-Battelle for the U.S. Department of Energy Study Sites for In Vitro Spawning Studies

21. 21Managed by UT-Battelle for the U.S. Department of Energy In vitro Spawning Trials: Status 51 female redear sunfish were spawned in vitro between May 11and June 1, 2011 from ERM 8, ERM 3, ERM 0.9, CRM 8, and CRM 1.5 Sufficient bluegill sunfish with eggs or mature ovaries could not be collected Redear eggs were fertilized with pooled milt from males collected from the same sites For each female, 20 fertilized eggs were followed through hatching and yolk- sac absorption in the laboratory in both site water and reference water (ERM 8 water) Results still being analyzed Fish and ovaries/eggs submitted to analytical laboratory for metal analyses Preliminary results suggest significant variation in the success of in vitro spawning of sunfish due to non-ash related factors

22. 22Managed by UT-Battelle for the U.S. Department of Energy Summary of Fish Reproduction Studies Associated with the Kingston Fly Ash Release No evidence to date of significant reproductive impairment in fish in the Emory and Clinch Rivers Some potentially significant 2010 data (from redear sunfish in particular) are still being analyzed Direct exposures of fish embryos and larvae to fly ash in short-term laboratory tests did not impact survival or incidences of developmental abnormalities Preliminary results from longer-term laboratory studies also suggest few if any effects on adult or larva survival or incidences of developmental abnormalities In vitro spawning trials with fish collected from the Emory and Clinch Rivers were only recently conducted and preliminary results are not yet available

23. 23Managed by UT-Battelle for the U.S. Department of Energy Acknowledgements This research was sponsored by the Tennessee Valley Authority (TVA) and performed at Oak Ridge National Laboratory (ORNL). ORNL is managed by UT- Battelle, LLC, for the U.S. Department of Energy under contract DE-AC05- 00OR22725 Numerous TVA personnel and subcontractors provided invaluable assistance with fish sampling and collection of fly ash samples In addition to coauthors Logan Elmore and Kitty McCracken, Meghan DeFord, Gail Morris, James Tenney, and Kristen Ward provided ORNL field and laboratory support